<tool id="stacks_assembleperead" name="Stacks: assemble read pairs by locus" version="@WRAPPER_VERSION@.0">
    <description>run the STACKS sort_read_pairs.pl and exec_velvet.pl wrappers</description>
    <macros>
        <import>macros.xml</import>
    </macros>
    <expand macro="requirements"/>
    <expand macro="stdio"/>
    <command><![CDATA[

        mkdir stacks_inputs reads stacks_outputs

        &&

        #for $input_file in $stacks_col:
            #set $ext = ""
            #if not str($input_file.name).endswith('.tsv'):
                #set $ext = ".tsv"
            #end if
            ln -s "${input_file}" "stacks_inputs/${input_file.name}${ext}" &&
        #end for

        #for $input_file in $reads:
            #set $name = str($input_file.name)
            #if $name.endswith('.2.fq'):
                ## sort_read_pairs is expecting strange fastq names...
                #set $name = $name[:-5]+".fq_2"
            #end if
            ln -s "${input_file}" "reads/${name}" &&
        #end for

        sort_read_pairs.pl
            -p stacks_inputs
            -s 'reads'

            #if $whitelist:
                -w '$whitelist'
            #end if

            #if $threshold:
                -r $threshold
            #end if

            -o stacks_outputs

        #if $velvet.use_velvet:
            ## remove possible empty files
            && find stacks_outputs -type f -size 0 -delete

            &&
            mkdir assembled
            &&
            velvet_path=`which velveth` && velvet_path=`dirname "\$velvet_path"`
            &&
            exec_velvet.pl -s stacks_outputs -o assembled -c -M ${velvet.contig_length} -e "\$velvet_path"
        #end if

    ]]></command>
    <inputs>
        <param name="stacks_col" argument="-p" format="tabular,txt" type="data_collection" collection_type="list" label="Output from previous Stacks pipeline steps (e.g. denovo_map or refmap)" />
        <param name="reads" argument="-s" format="fastqsanger" type="data" multiple="true" label="Files containing sequences" help="Files containing parent sequences from a mapping cross" />

        <param name="whitelist" argument="-w" format="txt,tabular" type="data" optional="true" label="White list of catalog IDs to include" />
        <param name="threshold" argument="-r" type="integer" value="" optional="true" label="Minimum number of reads by locus"/>

       <conditional name="velvet">
            <param name="use_velvet" type="boolean" checked="false" label="Perform assembly with Velvet" help="If not selected, the tool will only produce of collection of fasta files (one per locus) containing reads ready to assemble." />
            <when value="false"></when>
            <when value="true">
                <param name="contig_length" type="integer" value="200" label="Minimum length for asssembled contigs"/>
            </when>
        </conditional>
    </inputs>
    <outputs>
        <collection name="collated" type="list" label="Collated FASTA files per locus on ${on_string}">
            <discover_datasets pattern="(?P&lt;name&gt;.+)\.fa(sta)?" ext="fasta" directory="stacks_outputs" />
        </collection>

        <data format="fasta" name="contigs" label="Assembled contigs on ${on_string}" from_work_dir="assembled/collated.fa">
            <filter>velvet['use_velvet']</filter>
        </data>
    </outputs>

    <tests>
        <test>
            <param name="stacks_col">
                <collection type="list">
                    <element name="batch_1.catalog.alleles.tsv" ftype="tabular" value="genotypes/batch_1.catalog.alleles.tsv" />
                    <element name="batch_1.catalog.snps.tsv" ftype="tabular" value="genotypes/batch_1.catalog.snps.tsv" />
                    <element name="batch_1.catalog.tags.tsv" ftype="tabular" value="genotypes/batch_1.catalog.tags.tsv" />
                    <element name="PopA_01.alleles.tsv" ftype="tabular" value="genotypes/PopA_01.alleles.tsv" />
                    <element name="PopA_01.matches.tsv" ftype="tabular" value="genotypes/PopA_01.matches.tsv" />
                    <element name="PopA_01.snps.tsv" ftype="tabular" value="genotypes/PopA_01.snps.tsv" />
                    <element name="PopA_01.tags.tsv" ftype="tabular" value="genotypes/PopA_01.tags.tsv" />
                    <element name="PopA_02.alleles.tsv" ftype="tabular" value="genotypes/PopA_02.alleles.tsv" />
                    <element name="PopA_02.matches.tsv" ftype="tabular" value="genotypes/PopA_02.matches.tsv" />
                    <element name="PopA_02.snps.tsv" ftype="tabular" value="genotypes/PopA_02.snps.tsv" />
                    <element name="PopA_02.tags.tsv" ftype="tabular" value="genotypes/PopA_02.tags.tsv" />
                </collection>
            </param>
            <param name="reads" value="demultiplexed/PopA_01.2.fq,demultiplexed/PopA_02.2.fq" ftype="fastqsanger" />

            <output_collection name="collated">
                <element name="1">
                    <assert_contents>
                        <has_text text="CCGATCAGCATCAGTAGTTTTCAACGAGCTGGCCCAATGGTGTATAACTATGTGGTAGAGAGAAACTGCTGCTATCACTCACGATATAAGCCCTCTGACG" />
                    </assert_contents>
                </element>
            </output_collection>
        </test>
        <test>
            <param name="stacks_col">
                <collection type="list">
                    <element name="batch_1.catalog.alleles.tsv" ftype="tabular" value="genotypes/batch_1.catalog.alleles.tsv" />
                    <element name="batch_1.catalog.snps.tsv" ftype="tabular" value="genotypes/batch_1.catalog.snps.tsv" />
                    <element name="batch_1.catalog.tags.tsv" ftype="tabular" value="genotypes/batch_1.catalog.tags.tsv" />
                    <element name="PopA_01.alleles.tsv" ftype="tabular" value="genotypes/PopA_01.alleles.tsv" />
                    <element name="PopA_01.matches.tsv" ftype="tabular" value="genotypes/PopA_01.matches.tsv" />
                    <element name="PopA_01.snps.tsv" ftype="tabular" value="genotypes/PopA_01.snps.tsv" />
                    <element name="PopA_01.tags.tsv" ftype="tabular" value="genotypes/PopA_01.tags.tsv" />
                    <element name="PopA_02.alleles.tsv" ftype="tabular" value="genotypes/PopA_02.alleles.tsv" />
                    <element name="PopA_02.matches.tsv" ftype="tabular" value="genotypes/PopA_02.matches.tsv" />
                    <element name="PopA_02.snps.tsv" ftype="tabular" value="genotypes/PopA_02.snps.tsv" />
                    <element name="PopA_02.tags.tsv" ftype="tabular" value="genotypes/PopA_02.tags.tsv" />
                </collection>
            </param>
            <param name="reads" value="demultiplexed/PopA_01.2.fq,demultiplexed/PopA_02.2.fq" ftype="fastqsanger" />
            <param name="velvet|use_velvet" value="true" />
            <param name="velvet|contig_length" value="20" />

            <output_collection name="collated">
                <element name="1">
                    <assert_contents>
                        <has_text text="CCGATCAGCATCAGTAGTTTTCAACGAGCTGGCCCAATGGTGTATAACTATGTGGTAGAGAGAAACTGCTGCTATCACTCACGATATAAGCCCTCTGACG" />
                    </assert_contents>
                </element>
            </output_collection>

            <output name="contigs">
                <assert_contents>
                    <has_text text="TGTATTCTCCCATGCGACAGCAGGACATCCCATCCCCCTCTGATGTTATCAATCATAAGA" />
                </assert_contents>
            </output>
        </test>
    </tests>

    <help>
<![CDATA[
.. class:: infomark

**What it does**

This program will run each of the Stacks sort_read_pairs.pl and exec_velvet.pl utilities to assemble pair-end reads from STACKS pipeline results

--------

**Input file**

Output from denovo_map or ref_map


**Output file**

A collated.fa file containing assembled contigs for each locus

@STACKS_INFOS@
]]>
    </help>
    <expand macro="citation" />
</tool>